The tryptophan residues of mitochondrial creatine kinase: Roles of Trp-223, Trp-206, and Trp-264 in active-site and quaternary structure formation
Autor: | Rolf Furter, Martin Gross, Elizabeth M. Furter-Graves, Theo Wallimann, Hans M. Eppenberger |
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Rok vydání: | 1994 |
Předmět: |
Sarcomeres
Conformational change Circular dichroism Macromolecular Substances Protein Conformation Stereochemistry Dimer Biochemistry chemistry.chemical_compound Protein structure Enzyme Stability Escherichia coli Animals Histone octamer Creatine Kinase Molecular Biology Edetic Acid Binding Sites biology Chemistry Circular Dichroism Apyrase Tryptophan Active site Mitochondria Spectrometry Fluorescence Mutagenesis Site-Directed biology.protein Protein quaternary structure Chickens Research Article |
Zdroj: | Protein Science. 3:1058-1068 |
ISSN: | 1469-896X 0961-8368 |
Popis: | The 5 tryptophan residues of chicken sarcomeric mitochondrial creatine kinase (Mib-CK) were individually replaced by phenylalanine or cysteine using site-directed mutagenesis. The mutant proteins were analyzed by enzyme kinetics, fluorescence spectroscopy, circular dichroism, and conformational stability studies. In the present work, Trp-223 is identified as an active-site residue whose replacement even by phenylalanine resulted in > or = 96% inactivation of the enzyme. Trp-223 is responsible for a strong (18-21%) fluorescence quenching effect occurring upon formation of a transition state-analogue complex (TSAC;Mib-CK.creatine.MgADP.NO3-), and Trp-223 is probably required for the conformational change leading to the TSAC-induced octamer dissociation of Mib-CK. Replacement of Trp-206 by cysteine led to a destabilization of the active-site structure, solvent exposure of Trp-223, and to the dissociation of the Mib-CK dimers into monomers. However, this dimer dissociation was counteracted by TSAC formation or the presence of ADP alone. Trp-264 is shown to be located at the dimer-dimer interfaces within the Mib-CK octamer, being the origin of another strong (25%) fluorescence quenching effect, which was observed upon the TSAC-induced octamer dissociation. Substitution of Trp-264 by cysteine drastically accelerated the TSAC-induced dissociation and destabilized the octameric structure by one-fourth of the total free interaction energy, probably by weakening hydrophobic contacts. The roles of the other 2 tryptophan residues, Trp-213 and Trp-268, could be less well assigned. |
Databáze: | OpenAIRE |
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